Shanghai Zhoubo welding & cutting technology CO.,LTD. |
Verified Suppliers
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Kjellberg Hifocus Cathode .11.848.211.142 G071 For Kjellberg
Electrode
Shanghai ZhouBo Welding & Cutting Technology company are a
professional manufacturer of plasma cutter consumables, Our company
is located in the Shanghai City, China ,it was established in
2007,but we had 10 years manufacturing experience in this field,
the new factory covers an area of more than 10000 square meters
.There are 50-100 workers and 20 research engineers.
Electrode: M002, M012, M001, M011, S002Y, S012X, T012Y, S042, S052,
G002Y, G032Y, G092Y, G015Y, G071, G052, G042 and so on.
Nozzle: M2006, M2007, M2008, M2009, M2010, M2112, R2007, R2008,
R2009, R2010, R2011, R2012, S2006X, S2007X, S2008X, S2009X, S2010X,
S2011X, S2012X, S2014X, S2016X, S2514X, S2516X, S2518X, S012X,
S2112X, S2114X, S2116X, T2115, T2120, T2125, T2127, T2130, T2523,
T2525, T2427, T2429, G2006Y, G2207Y, G2008Y, G2009Y, G2010Y,
G2011Y, G2012Y, G2014Y, G2016Y, G2326Y, G2330Y, G2331Y, G2514Y,
G2516Y, G2518Y, G2725Y, G2727Y, G2729Y.
Swirl gas cap: V4335, V4330, V4340, V4345, V4350, V4360, V4535,
V4540, V4550, V4560, Z4015, Z4020, Z4022, Z4025, Z4030, Z4140,
Z4530, Z4535, Z4545, Z4540, R4020, R4022, R4025, R4130, R4140,
R4525, R4530, R4540, G4020, G4022, G4025, G4030, G4035, G4040,
G4330, G4335, G4340, G4345, G4350, G4355
Nozzle cap: M3004, M3008, M3028, S3004, S3008, S3018, S3028, T3000,
T3030, T3045, T3145, T3060, T3160, T3208, T3209, T3219, T3228,
R3004, R3008, R3018, R3028, G3004, G3018, G3028
Protection Cap: Z501, T502, T503, V502, T522, G3209, G3219, G3249
Gas guide: Z101, Z102, Z111, Z111A, G101, G102, G121, G125
Water Tube: T901, V931, PB-S75, PB-S46/47, .11.842.601.152, G931
Machine | HEC NO. | Thum NO. | Ref NO. | Description |
Hifocus 280i Hifocus 360i Hifocus 440i (Stainless Steel) | K94231 | G971 | .11.848.211.142 | Cooling tube |
K0424 | G044 | 11.848.211.530 | Cathode | |
K0422 | G042 | .11.848.211.510 | Cathode ArH2 | |
K7441 | G101 | .11.848.221.145 | Gas guide | |
K14610 | G2010 | .11.848.221.410 | Nozzle O2 80A | |
K541208 | G3008 | .11.848.201.1608 | Nozzle cap | |
K541218 | G3018 | .11.848.201.1618 | Nozzle cap | |
K641522 | G4022 | .11.848.201.1522 | Swirl gas cap | |
K641525 | G4025 | .11.848.201.1525 | Swirl gas cap | |
K0432 | G052 | .11.848.311.510 | Cathode | |
K7445 | G105 | .11.848.221.149 | Gas guide | |
K141016 | G2516 | .11.848.311.616 | Nozzle | |
K641830 | G4530 | .11.848.311.1530 | Swirl gas cap | |
K44191 | G501 | .11.848.201.081 | Protective cap | |
K04261 | G071 | .11.848.411.500 | Cathode ArH2 | |
K74255 | G125 | .11.848.421.149 | Gas guide | |
K141125 | G2725 | .11.848.411.625 | Nozzle ArH2 | |
K141127 | G2727 | .11.848.411.627 | Nozzle ArH2 | |
K141129 | G2729 | .11.848.411.629 | Nozzle ArH2 | |
K541409 | G3209 | .11.848.401.1609 | Nozzle cap | |
K541419 | G3219 | .11.848.401.1619 | Nozzle cap | |
K541429 | G3229 | .11.848.401.1629 | Nozzle cap | |
K541449 | G3249 | .11.848.401.1649 | Nozzle cap | |
K641745 | G4335 | .11.848.401.1535 | Swirl gas cap | |
K641740 | G4340 | .11.848.401.1540 | Swirl gas cap | |
K641745 | G4345 | .11.848.401.1545 | Swirl gas cap | |
K641750 | G4350 | .11.848.401.1550 | Swirl gas cap | |
K44201 | G521 | .11.848.401.081 | Protective cap |
Technical Support:
Plasma cutting is a process that cuts through electrically conductive materials
by means of an accelerated jet of hot plasma. Typical materials cut
by this process include steel, aluminum, brass and copper though other conductive metals may be cut as well.
Plasma cutting is often used in fabrication and welding shops,
automotive repair and restoration, industrial construction, salvage
and scrapping operations. Due to the high speed, precision cuts,
combined with low cost of operation, plasma cutting sees a
widespread usage from large scale industrial CNC applications down
to small hobbyist shops.
Process:
The basic plasma cutting process involves creating an electrical
channel of ionized gas i.e. plasma from the plasma cutter itself,
through the work piece to be cut, thus forming a completed electric
circuit back to the plasma cutter via a grounding clamp. This is
accomplished by a compressed gas (oxygen, air, inert and others
depending on material being cut) which is blown through a focused
nozzle at high speed toward the work piece. An electrical arc is
then formed within the gas, between an electrode near or integrated
into the gas nozzle and the work piece itself. The electrical arc
ionizes some of the gas, thereby creating an electrically
conductive channel of plasma. As electricity from the cutter torch
travels down this plasma it delivers sufficient heat to melt
through the work piece. At the same time, much of the high velocity
plasma and compressed gas blow the hot molten metal away, thereby
separating i.e. cutting through the work piece.